Platenless typewriter



Aug. 6; 1929. o. J. HUIE 1,723,240

PLATENLESS TYPEWRITER Filed Jan. 17, 1927 6 Sheets-Sheet l Wwe/if,

f//gmumtoz 'au /W/ Aug. 6, 1929. o. J. HulE PLATENLESS TYPEWRITER Filed Jan. 17, 1927 Aug- 6 l929- f o. J. HUI'E Y Y 1,723,240

PLATENLE S S TYPEWRITER Filed Jan. 17. 1921 s sheets-Sheet 4 Auge, 1929.

o. J. HUIE 'PLATENLES S TYPEWRITER Filedan. 17, 1927 e sheets-sheet 5 amm Aug. 6, 1929. o. J. HUIE PLATENLESS TYPEWRITER 6 Sheets-Sheet Filed Jan. 17, 1927 cava 1N unsere UF EASE DF MANIPULATIDN SELECTDR KEYS Patented Aug. 6, 192g.

U ra t a J5 mais j 'garantes OLIVER J'. HI, 0F ATLANTA, GEORGIA.

PLATENLESS TYPEXVRITER.

f 'Application filed January 17, 192?. Serial No. 161,674.

The present invention has particular refprinting in books and the like, which canl i maybe manipulated by the thumb.

not be handled by the ordinarytypewriter.

Such a device must be much smaller in size than the ordinary typewriter, in order *toy be readily manipulated inthe manner mentioned, and it is the especial object of.

V this invention toV provide an extremely compact machine which shall at the same time be entirely accuratenin operation. Compactness'is obtainedprincipally by the use of a code system, which-,permits a v'great reduction in the number of keysrequired,and in,v the embodiment of my invention lwhich I` shall describe hereinafter, only seven main keys and .two-.auxiliary keys are required to' carry out all the operations of the machine. These keys are-so arranged as tobe easily operated by a single hand, allthe selective keys being operable to make any se-pk lection'within the scope of the machine by the use ofzfour fingers of one hand, while` the printing keyV arranged on the 'opposite 'side ofthe keyboard from the selective keys The embodiment of the invention which I have illustrated in the accompanying drawings, and which I shall describe hereinafter is suggestive rather than-restrictive of ther invention, since many optional rearrangements of the basic instrumentalities wouldV readily occur to-thoseskilied in the vIn'the drawingsV` 1 Figure lis a side elevation of the deviceY yas' .seen from thelet'. v

Figure 2`isV a side elevation of the device as seen from the right.

Figure 3 is a section on the lineBY-B of,

Y arranged entirely around the periphery of the type ywheel at'equal distances from each Figuie 1.- l f v `'Figure 4 isan-enlargementpartly in section or" elements shown in Figure V3.

Y Figure fisfa section' Aon the line 5-5 of Figure-'3. Y Y i Figure 6 is a plaii'view of themach-ine as seen rfrom.l below. l f

The i de- -Figure 7 is a section on the line 7 7 of Figure 5. i

Figure 8 is a. section on the line 8-8 of Figure 5. Figure 9 is an enlarged view of the printing mechanism.

Figure 10 is a view of the inking block of Figure 9, as seen from the right of that gure.

Figure ll is a detail of' the propelling mechanism. l

Figure 12. is a view in part of the main body oi04 the device with vthe-top removed.

Figure 13 is an enlarged view of a portion v of Figure 12.

Figure 14- is a section on the line lll-14 of 'Figure '18. f

Figure ,'15 is a chart showing `code systems upon which the machine of the present linvention mayy operate, and

Figure 1G shows 'a guide device for insuring rectilinear travel of the machine.

Figure 1'7 'is a plan view of a portion of arrangements of the part.

OociZegsg/stem cmd arrangement ofV seelczfory keg/s.

Vtype, twenty-six being allotted to the alphabet, and the remaining twenty-six representing figures from 0 to 9, punctuation marks Vand other desired characters.

In the embodiment rof the invention to be presently described, the type bars are. ar-

ranged around the periphery of arevoluble type wheel, and hence, assuming one type bar to be always in operative position, it is necessary that the type wheel be selectively rotatable to any one of fty-one other posi- ,tions in order that the type bars may be brought selectively into operative position,

that is, in position to be struck by theY single hammer, iixed in relation to the machine,

which is provided. As the type bars. are

Vthe selector mechanism showing alternative Y other, it is thus required y to be rotated f through any required angle, as determined one of the lat-ter into typing position. To

. bythe type bar spacing, in order to bring-i vwhich are manipulatable separately or togetherto impart such individual or aggregative movements to the type Wheel.

As shown in Figures 2 and 3 in particuglar, these keys are indicated by the letters A, B, D, E, Gr and H, and have respective values of 1, 2, 4, 8, and 26. The depression of key A causes, through suit-able trans-` mission means, the rota-tion of the type Wheel through one angular unit, so as to `bring the second type bar into position, While the other vanced through any selected number of an- 'gular'units up to twenty-five, this latter ligure beingfthe sum-lof the values of all of theseV keys. Including the4 first type bary which is normally in Vthe print-ing place,

y `twenty-six selections have thus been provided. The key I-I is in itself capable Vupon manipulation 'of rotating the type Wheel through 180' orftWenty-six angular units,

and by the depression ofthis key, the tvventyseventh type bar yis brought into `printing "place: Thus Vif it is desired to print the character carriedy by the thirtieth type bar,

for instance, key I-I and keys A and B Will be depressed. y To facilitate the simultaneous kmanipulation of keys A and B, an overlapping key C is provided,and upon its depres-4V sion,it Will carry keys A and -B with it. A

similar-[auxiliary key F is provided for keys I) 'and E. j"

Referring to the chart, shown in Figure I 15,4 column s indicates the key'or combination the machine.

of'keys to beused to obtain the code position indicated in column 91, it being understood, as explained above, that the number onefposition' is the normal rest position of Columnl o indicates the manner in' which the letters of the alphabet may be allotted to the code position, While column w` indicates the figure or character which;

wouldy be printed upon the depression of key Hand manipulation of keys A, B,TD,'E and Y. G, lTo printafperiod accordingly, it'Will 'be necessary'first of all to depress key H,

whereby the type Wheel is rotated through twenty-six units and brought tothe twentyseventhp'osition. Thus to use the machine,

v it'y is lirst'of, all necessary that the operator memorize the code positions corresponding to the letters of the alphabet, the figures and I the characters. Columns t and 'fw merely Vshow ar'earrangement of the code i positionsv t'obrmg about ease of manipulation. The broad ideavof the invention is not *confined to-the'use of the key values discussed above; for example, I might give the keys the'values of 1, 2, 4, 8, 16 and ggguand. 'i thus obtain sixty-four selective positions;

Again I might providea second key having metric progression of ,values indefinitely.

Since six is the Vmost convenientnumber of Y keys, however, and fifty-two positions fully adequate for general purposes, I prefer to use the system above.

Selector mechanism.

hasv a casing consisting off a 'lower substanwhich has been described tially cylindrical portion and an upper horizontally extending box-likev4 portion." r` The type Wheel and the actuating units therefor` are positioned in the loWercylindricalportion, While the selector keys are carried by,

stems horizontallyarrangedinthe-box por- Y tion. The type 'carrier or Wheel` consists of 'a circular disc 20 supported Ona-Vertical l axial shaft 21 rotatably supportedina foot Y bearing 22 on the base plate`23 ofthe casing.

The upperreducedV end 24'of shaft 21 extends through a suitable aperture inv 'a partip tion ivall 25 at the upper endofthe cylin-V drical portion 26. The spring 27 having its ends fixed to shaft21 and bearing 22, tends to turn the former in the directionlof arrowV a', Fig. 13.` f This tendency is likewise exerted upon disc 22 which is x'e'd'toshaft 21 vby pin 28. An annular member 29Ml1'aving` upper and lower la`nges30l and-.31is riveted through the former to` disc 20inconcentric` l relation therewith. The peripheries Vof disc 20 and fla'nge`31z are providedWith-'vertically aligned apertures, fifty-'two `in. each, andifty-two type bars 32 vare supported inv these'A Y apertures for'i vertical sliding '-movement Each type bar is provided Withjastop pinl v33, and between' this. pin and flange y31. is

a compression spring `33 normally forcing the pin intohcontact with disc '20.' i .Y

Five horizontally,` extending brackets .34 38 inclusive are rotatably supportedV above disc 20 in superp'osed` position on shaft V .o zontal position 'and concentrically With shaft", 21, Fig. 13. yA pistonrod 40 'likewise con'-l Bracket 34'supportsa cylinder 39 in horicentric with shaft'2-1, has a piston head 4:1

interconnected by means of the correspondand ansexpanded extremity 42 which is fixed to an upwardfextension35 of bracket 35. vThe cylinders-43, 44.*and 45am similarly` ing brackets, While the piston'rod @f7V ofcyll inder 46 is fixed vto on the top of disc2l. V f I Due to theaction of springV 27. itstendl ency to rotatel disc-21 inthe directionfof an abutment e8 carriedl arrow m, Fig. 13, Vthere is. La hendencyV to same direction, thus bringing each bracket swingfall the brackets and cylinders'in the` 130'v f the value thirty-two and thus 'secure ninetyf six positions, or I lmight continue the .geo-V As sho-Wn in Figs`1,'2 and 3, the machines()V into abutment with theend of the cylinder' in which its attached pistonrod works. This rotative tendency is limited by an abutmentl 49 which isvlixed to casing 26 and arrests ,the type wheel insuch position as to normally hold` the machine in the number one position, injwhicli the type bar corresponding tothis position is stationed exactly beneath hammer 50. Thislatter vertically V.slidable in perforations in partition 25, and

'a flange' 51 supported by vcasing 26. f A coinpression spring 52 abut-s Awith its respective ends a collar` iixedxony shaft 50, and bracket 51,V Fig.-5, and thus tends yto impart downward movement 'to' the hammer. The means for controlling the'hammer will be described hereinafter. i i Y Keys A, B, D, E and G are provided with p stems '53 to 57, which extend through aligned aperturesfin .wall 58 ofthe upper casing member 59 anda partition wall SO. These stems arepreferably hollow; their outer ends being stopped bythe attached keys.

Referring particularly to Fig. 4, it will be iseen that a closed `cylinder '61 is fixed to wall 58 concentrically with Vshat't Stems Q54 to 57 are similarly' provided with cylinders'62 ,to"65, so that the description of one Will'applyv to all.vrv A piston 66 is' fixed to.

stem53 within cylinder 61 andy is normally maintained inthe position shown in Fig. 4 `by means of a compression'spring 67 interposed between wall 60 and a washer 68 fixed .to vthe stem, vwhich latter is provided with -perforations v69 just within cylinder 6l.

Cylinder. 61 has an'outlet nozzle 70 connectedby means of a' flexible tube, preferably'of rubber, with inlet nozzle 72 oli-cylinder 46. Upon' depression .of key Av therefor, air pressure will be developed in cylinder 61 andtransferred,through tube 71 to cylinder 46 in rfront of the piston withiny thev latter.`

The length of piston rod 47 is such that upon its movement, Vas vrabove described, it will rotatezthe type wheel through a single unit, this being' the value of key A. The movement of the piston rod is limit-ed by the abutment of its connected piston` against the endA wall of the cylinder. Cylinder 62 is in con# `nection with cylinder by means of a tube 73, andy since key B hasl the .value of two,

i ,upon its depression, the piston rodof cylinder 45 working 4aga-inst bracket 88 will rou Vtate the type wheelfthroughitwo angular .action otpiston rod 47 upon abutment 48,

will advance the typefwheel to thefourth position. V,Cylinders 63, 64 and 85 are in connection" withVVV cylinders l 44, 48 and 89 by f Lmeans of tubes"74, 75andV 76, these latter cylinders being so proportioned as to be able upon actuation of keys D, E and G to aligned apertures in walls 58 and 60. A'

cross member 78 fixed to shaft 77 by pin 79 has bifurcated ends extending between the spring abutting Washers of stems 53 and 54 and cylinders 61 and G2. Thus upon depressionV of key C, crossmemb'er 78 will carry stems 58 and 54 with it cansino' the simultaneous expansion of actuators 4o and 46. Cross member 78 is provided to prevent the distorting effect which key C, due to its disposition, would otherwise have on keys A and B. Key F bears the saine relation to keys D and E as that above described.

Cylinders 61 to 65 have a rconsiderably larger capacity than their respective actuator cylinders so that a complete expansion of the latter is always assured upon depression of the selector keys. The pei-felations yat G9, Fig. 4, are provided in the key stems,

so that the ,cylinders will be placed in cominunicationV with lthe atmosphere upon the piston return, so that a state of vacuum cannot be retained in the cylinders under yany circumstances. Due to the position of these apertures, as shown, such communication Will. be cut otl immediately upon depression of the keys.

As has been described above, a key H is provided which by a single manipulation is adapted to rotate the type wheel through twenty-six angular units or through 1800. rlhis key has a. stem 80 passing through aligned apertures in wall 58 and a bracket iio 81,*and the rear portion of this key is bontdownwardly to bring its extremity 82, Figs. 3 and 5, below partition 25. A vertical shaft 83 rotatably journaled in base plate 28 and wall 25 has iXed to it a two arm lever 84, provided at its left` end with a toothed.

segment 85 engaging a pinion 86, fixed to thehub V34 of bracket 34. The right end illustrated, the influence of the spring being limited by U.ie abutment of bracket 34 against stop 49. The stroke of stem 80 is so determined that the resultant movement lOisegment 85 will rotate pinion 8(3,andk

' While the ytube connections as above de-L scribed in Vconnection with Fig. 12k are quite practicable, .I have illustrated preferred arrangements in Fig. 17. It will be noted. that according to this ligure, the inlet nipple projects through bracket 34, and coniinunicates at its outer end with the interior of cylinder 39, while the inner end ofy the nipple lies in closeV proximity to the axis of In this manner,4

rotation of the cylinder. the necessary length of tube 70 is greatly reduced. A further modiication is shown in connection with cylinder 13, according to which ya nipple is let through the cylinder wall near the base oi' the cylinder and is carried along bracket, its inner end lying, as above, immediately adjacent the Aaxis of rotation.

unobstructed movement or shatt and its associated instrumentalities, see Figs. 5 and 8 in particular. Shaft 90'is vertically and rotatably supported in aligned apertures in brackets 91, 92 and partition 25, and is restrained against the force of gravity by y linedV collars 93 and 94. A crank arm 95 is rigidly secured to the lower end of shaft A90 and this arm is vpivoted by` means ofV a "link 96 with a lug 97 at the top rear of a block 98. Block 98 is provided with lateral lugs 98 engaged by guide rails 99 secured to plate 23. The block is provided with a -orward vextension 100 which supports an inking pad 101. Thus, by rotation of shaftl 90 lreciprocating movements may be imparted to the inking block, and at one eX- ti-emity of its travel, pad 101 will be brought beneath the type bar which is in the printing position. ABlock 98 has an-upward projection 102 vat its upper rear and-this projection during the forward travel of the block comes in contact with an abutment rail 103 supportedfon a bracket 1011 lined to plate 23.

The continued forward movement .of the block Vtherefor causes it to tilt, bringing pad '1.01 into contact with the type to be inked. It will be noted that a 180 rotation of sha-tt "90 will cause the inking of the type and the return to inoperative position of the inking vAt its upper able Vby a pawl 106, arranged at the bottom Flexible tube 75, is inV end, shafti90i's provided with a rigidly attached ratchet wheel 105 engage-- of a pinion 107 rotatable' on a hub 108 whichV is fixed to shaft 90. fHub 108:has flanges at i y either side of pinion" 1071sof the vertical dis-V placement of the latter is impossible. A

printing key P has a Vstem 1 09/dispesed in" appropriate apertures inwalls1f10, ,and 60 Y ot' the upper casing, this stem beingvpreferably polygonal in cross section, andftheaper tures being of corresponding configuration in order to prevent rotative movement of the 15...' i' stem. At its/inner end, stem 109 is prof vided with'teeth 111, whichi engage pinion 107. A spring 112v workingagainst pin 113 serves to hold key Piyieldablyin the posi-v tion shownin Figuref, and thestroke'of. stem 109 kis so regulated as tobe adapted to cause a. 3600 rotationy of pinion 107, and

therewith shaft 90 through the intermediary of pawl 106 and ratchet wheel 105. lThus it Y V85*k will be seen thatra rhalf stroke of stem 109 will sujtlice vto operate the printing block andiA Vwithdraw Ait into inoperative position."`

Loc/cmg mec/Lament."

As particularly illustrated in lFig. 7, the

' `periphery of disc 20 `is notched on a radial line with each ot the type bars, and a lever lll pivotally supported on ther-stud 115 at its one end a pawl 116 adapted Ato engage the notches.

.suitably secured tothe machine frameV hady 95 A cam1117- fixed to shaft 90x engages .the tail of lever 114: directlyupon depression of key P and movesit against the action of spring 118, so that pawl 116 en- Y gages theV notch of disc 20 which isv adja' Cam-V117k is so shaped `as to releaseV v lever 114 only after the entire Vprinting opl cent it.

eration has been completed. p

, Hcwmnccontrol.` Hammer 50 has atits upper 'end a yhead 119 engageableby ya helicoidal ysegment y120V rigidly secured ,to shaft' 90. In theV rest f position of the machine, head 119 is engaged by segment 120, so that the hammer is lifted clear .of the type bar therebeneath. jUpon depression of key P, and consequent rotation of shaft 90 and the segment, head 119v will ride alongthe latterthrough thev first .1 180, that is, until the inkingblock has-'performed its function and` been removed" toY inoperative position. The .Y hammer .which Y has been raised further'during this rotatiom;

now slides offl the uppere'nd of thel segment and is brought 'sharplylagainstftheposi? tioned type lbar under` the *influence .ofg` 'spring 52. Upon urtherrotation ofshaftj 90, the lower edgeotsegment will engage under thehead 119 and vlift the liannnerclear of they type bar. v Thus after 3609 *rotelleV tion, the parts will again assume the position v illustrated. .Head 119, dueto theintluence j of spring 52,` has-.the tendency vto impart counter rotation to the segment and tcsh-aft l90. Such rotation isprevented afpawl 121v operatively pivoted to the machine f frame, which engages a ratchet wheel 122 fixed to shaft 90. 7 'f 'Mechanism for calca/)wing machine. `Asshown particularly inFigs. 5, 6 vand 8, three rollers 123, 124 and 125 project.

downwardly through p erforations'in base plate 23 to forma three point `suspension for the machine. Rollers l24'and 125 have ex-A tended shafts v126 and 127 journaled in suitable' brackets secured to plate 23, while roller 123 is provided with an axial shaft 128 only sufliciently long to engage itsV lsimilar supporting brackets. Shafts 126 and 127. each havesecured thereto a ratchet wheel 129, l

Y Fig. 11, and a bar 130 extends transversely to shafts 126'and'1277above the wheels 129.

" Bar 130 is connected to shafts 126 and `127 A tension spring 133 exerts its influence on.

served'thata spring arm 134 is suitably fixed to the machine casing at one end, so that its by" pivotal links 131, and links 131 carry 'plvoted pawls 132 adapted to engage ratchets 129tto rotatethem in a Vclockwise direction.

barf130.

'Referring ltoFgs.A 1 and 3, it will be obfree'end clears theframe by some distance. The yfree end of arm 134 is bifurcated to extend to either sidefofV the stem 109. A key S is fixed to the intermediate portion of` arm 134 and through the connections to'be describedl actsas spacing keyv uponmanipulation. f Y

` A vertical'shaftl 135 is suitably journaled Vinthe machine frame'for rotation, and this shaft has afixed'to its upper end any angular L arm 136, and atits lower end an angular -arm 137. Arm 136 carries a vertical pin 138 .in contact with'the rear lsurface of spring arm 1314,*while arm 137 is connected through as'uitable pin andslot `connection with bar 13 0. Upon depression of key` S therefor, bar 130 vwill bevdrawn outwardly, and upon 'release of` this key, bar 130 will be returned under the'in'fiuence of spring 133pawls 132 engaging ratchets 129, Vso'that rollers 124 .and 125 are given rotative movements and g i ,the machine lis advanced a step in the direction of the arrow y.

Similarly, key P .will engage the arm 134 during the latter portion of its movement,

sovas to Vactuate ,the advancing mechanism.

General operation.

From the above description, it will be seen` that in operation the machine is placedy upon I the printing surface in such position that the ,arrow y, Fig. 8, points in the'advance direction'.L lIn order `to Vinsure rectilinear travel Y of the,machine,I may provide a guide frame '139, such `as shownl in Fig. 16, which isz placed. on the printing surface to extend-in the direction of the machine advance. Rail 140 of theguide frame is adapted tofabutv` casing26 at its lower edge, while plate 23 and the lower'extremities ofvcasing 26 are grooved to receive rail 141.v

Having suitably positioned the machine, the type wheel is set in a manner which has already 'been described, and thereupon key P is depressed. As above described, the depression of this single key causes the locking of the type wheel, the in king of the type and the operation of the' hammer, while lupon the release .of key P the machine is advanced bodily by onespace. If it is de sired to advance the machiney by a space without printing, key S is, rvof course, depressed.

In Figs. 1v and 3, I have showna fixeda thumb rest R, positioned directly above keys P and S. VVThe purpose of thisV rest is to balance the pressure of fingers on the selector keys. In use, thel ball of the thumb will ride on this rest and keys P and S will i be operated by an inward thrust of the tip of the thumb. K

From the above, it will befseen that I have provided an extremely compact machine of the least possible complication conticular embodiment of my invention, itlis to be understood that the scope'thereof is to be determined in accordance with the following claims. According to the modification which has'been described, pressure upon the selector keys serves to ,generate fluidi pressure for the actuation of the expanders. However, without departing from the spirit of my invention, the selector keys might 'control valves to admit pressure from an exter-v nalsource to thefexpanders.

I claim- 1. In a typewriter, a rotatable type carrier, a plurality of keys in connection with said carrier, means actuated by said keys to impart individual and aggregative selective angular movements to said carrier, and means operable to cause simultaneous actuationof saidkeys. Y v 1 2. In a typewriter, arotatable type carrier, a plurality of keys in connection with said carrier, means actuated by said keys to impart Adifferential angular movements to 4vsaid carrier, and means operable to causel simultaneous actuationof 'saldkeyaV leis sion means between said actuators and said atypewritena movable typ'ecarrier,

L a plurality of keys, fluid' pressuregenerating means voperated upon manipulation of's'aid keys; Vdifferentially movable actuators in connectionjwith' said pressure generating means and operable thereby, and transmisi. typecarrierj of said keys, a plurality of differently eX- pansible-units in connection: with said prestween said Ae'xpansible units and` lsaid type carrier.'

rier, aj vertical shaftfor supporting said j! type' carrier, a plurality of keys, fluid presvsuperposed on said shaft in concentric rela-l tion thereto,fand transmission means be` said leXpansible .units and said type sure generating Y- manipulation of said keys, a plurality of differently eXpans-ible units in connection with 'saidj pressure generating meansand carrier. 6, In a 'rier, avertical'sh'aft supporting said type carrier, a p luralityof angularly movable "cylinderssuperposed on said shaft in' con-v centric relation thereto, pistons in said cylylinders .in connection with adjacent cylinders,

'gthepiston of oneof said cylinders being in l' connection with said type carrier, a plurality of keys, andv pressure generating means V4operatedupon "manipulation l'of' said keys .and in' connection with said cylinders,Y @whereby lthe movements of saidpistons are ltransmittible separately or Vaggregatively to" l said type carrier.

ricr, means; normally holding 'said type carselec'tive means operable to impartdilferen- Vone angular unit,;and a further single means adapted to impart 'an angularwmoyeinent of 180" to said type carrier.

"i 8; `In a typewriter, a rotatable 'type' car! type carrier, superposed brackets fon lsaid S l aft .and independently rotatable Irelative. to 4each other, means for imparting differ- *ential angular movements to said'bracket s and connections between said brackets andsaid type" carrier 'whereby independent or aggregativejmovements of the former may j be transmittedftothe latter.'

A "4. In a typewriter, a rotatable type carrier, a plurality of keys, fluid pressure generating means operated upon manipulation means operated upon typewriter, a rotatable type carl"inoperative position. tial angularl movements' by predetermined Y units tof said type carrier up to 1809; 'minus "tion with said abutinentr whe tilted into Contactwith`thfetyp`e.`

Grana' f shaftu and independently rotatable' relative.

to each other,` meansfor imparting differential angular movements v'to 'said brackets," connections between said'brackets and said` type carrier whereby independent or aggre` 70 gative movementsvof the 'former may be transmitted by" predetermined angular units to the latter, the aggregati'vev movementsof said brackets being capable of rotating said type carrier through 180o minus lone angular '15 i unit, and a further single'means in connection with saiditype carrier adaptedto lrotate the latter through 180.

10. In a typewriterV adapted torest in'iopfy erativey position directly upon La' printing '80 "surface, a rotatablel type carrier, type' barsl slidably supported bysaid type carrier for Y movement in theaxial directionof the latf 5.VV In atypewriter, a rotatable type car-V ter, a hammer, means for-bringing a selected type carrier in operative positionrelative'to 85' said hammer, a printing key `for controlling said hammer, inking means operated by fsaidr printing key, 'and means operated-'by said printing key for locking saidl i'j,ype" carriery lin position'during the lprinting action, and "9o means controlled 'by 'said printing key to bodily ac lvanceV the machine over said surf" face'. n 1`1.` Ina typewriter, a type bar, k a hammer in operative 'relation relative ,toV said bar, 95

springineans forcing said hammer toward said bar, a helicoidal segment engaging 1said hammer, and means for rotating saidfs'egment in engagement with rand past said hammer for'lifting fand releasing the same" 100 Y.

,type b arunder "ward said type'barfa helicoidal'segment' engagin'g said hammer, 'and'means for rotating Y ysaid'segment relative tosa'id f ha1nmer to ''7. In a typewriter, a rotatable typefcar-v 45 ri'er yieldablyy in apredetermined position,.`.

13. yIna typewriter, a type bar, hammer inoperative positionfrelative'lto said typebar, a spring forcing said hammer toward"`11 5 saidtype bar, a helicoidal segmentengaging said hammer, means for rotating said segment relative to5 said hammer. to move the latter againstthe action of said springk release it f -orimpact against said type bar`^120 'and againengage'it to return it to'ino'perative position, and detentjm'ea'ns -forholding Vsaid hammer in Vits inactivepositifon.

14. Ina typewriter,`a vertical'type bar,

an inking pad, saidpadha ving ajprojection'i25 at' its upper rear portion,- anabutment, .and

means for moving' 'said pad toward' 'said' type 9. In atypewriter, arotatablejtype car-` i rier,"a yertieal. shaft for supporting said type V4"carrier, kfsuperpo'sed br'arikets` on" ysaid barto cause i the engagement' lofsaidy 'projecreby the' 15. In a typewriter, rotatable supporting means for the typewriter, a type bar, a hammer in operative relation thereto, an inking device, and'common operating means for actuating said inking device to ink the type, raising and releasing the hammerfor limpact against said type bar, and .controlling the rotative movement of said rotatable supporting means.

- 16. In a typewriter, a key board having selector keys arranged along one side there- Y of and manipulatableby the four fingers of one hand, horizontally reciprocable stems supporting said keys, a printing key arranged on the opposite side for manipulation by the thumb of the same hand, and a horizontally reciprocable Astem for said printing key.

17. In a typewriter, a key board having a series of Vve selector vkeys having differential values, said keys being manipulatable singly by the three fingers of one hand to set up values dependent upon the individual key values, and bridging means whereby the keys may be operated simultaneously by the three fingers of one hand to set up the total of their values.

18. In a typewriter, a key board having a seriesof live primary selector keys having differential selective values, said keys being` manipulatable singly by the three lingers of y oneV hand torsetup values dependent upon 'values dependent upon the individual key values, bridging means for some of the adjacent keys whereby the latter are simultaneously operable to set up the total of their values, and a secondary selector key having the value twenty six.

20. In a typewriter, a rotatable type carrier, means normally holding said type carrier in a predetermined position, motive means singly and aggregatively operable to impart diiferential angular' movements by unit steps to said type carrier up to 180 minus one angular unit, said motive means being rotatable as a whole about the axis of said type carrier, and means adapted to impart a rotative movement of 180 to said motive means as a whole and therewith to said type carrier.

Intestimony whereof I have hereunto set my hand.

OLIVER J. HUIE. 

